Negative impact of microorganisms on multicomponent underground space of St-Petersburg: engineering, geological and geotechnical aspects

Автор: Dashko Regina, Vlasov Dmitry, Voronov Alexey

Журнал: Строительство уникальных зданий и сооружений @unistroy

Статья в выпуске: 5 (90), 2020 года.

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This article considers the problem of improving safety for reconstruction and restoration of historical buildings of 1898-1902s located in Telejnaya St., Saint-Petersburg. The multiple investigation of bearing constructions mentioned above buildings as well as their foundations was made. The geotechnical analysis of foundation soils of the buildings was carried out. The underground water contamination level was assessed, contaminant sources were found. Taking in consideration palustrain deposits widespread occurrence and the term of sewer leakage, microbiological examination of foundation soils of the buildings, groundwater and constructional materials (bricks, mortar, wood, out of servicewaterproofing layer and other) were made. Abundance and species of micromycetes, aerobic and anaerobic bacteria were established. Change in microorganisms number with depth of foundation soils of the buildings depending from redox conditions was found. Reducing conditions with ORP (Oxidation-Reduction Potential) <0 mV (in some cases ORP=20-30 mV) were detected. ORP value was measured in the field. In these physical and chemical conditions anaerobic microorganisms (sulfate-reducing, methane, denitrifying bacteria) generating gases of different degree of solubility are pervaded. High level of microbiologicalprevalence of foundation soils of the buildings, groundwater and constructional materials leads to the necessity of usage of bioresistant constructional materials. It is necessary to take into account the presence of drift sand and slow-soluble gases which causes the change in foundation soils of any building stress-deformed state.

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Crumbling building, geological-engineering features of moraine soils, hydrogeological conditions, physical and mechanical properties, microbiota, swab test method, metagenomic analysis, biocorrosion, contamination

Короткий адрес: https://sciup.org/143172543

IDR: 143172543   |   DOI: 10.18720/CUBS.90.1

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